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Literature DB >> 25366644

Mouse model of subarachnoid hemorrhage: technical note on the filament perforation model.

Carl Muroi¹, Masayuki Fujioka, Serge Marbacher, Javier Fandino, Emanuela Keller, Katsunori Iwasaki, Kenichi Mishima.

Abstract

Experiments using genetically engineered mice are regarded as indispensable to gaining a better understanding of the molecular pathophysiology in neuronal injury after subarachnoid hemorrhage (SAH). Therefore, mouse SAH models are becoming increasingly important. The circle of Willis perforation (cWp) model is the most frequently used mouse SAH model. We report and discuss the technical surgical approach, results, and difficulties associated with the cWp model, with reference to the existing literature. Our results largely confirmed previously published results. This model may be the first choice at present, because important pathologies can be reproduced in this model and most findings in the literature are based on it.

Entities: Disease Species

Mesh：

Year: 2015 PMID： 25366644 DOI： 10.1007/978-3-319-04981-6_54

Source DB: PubMed Journal: Acta Neurochir Suppl ISSN： 0065-1419

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Cited

6 in total

1. Longitudinal imaging and evaluation of SAH-associated cerebral large artery vasospasm in mice using micro-CT and angiography.

Authors: Vanessa Weyer; Máté E Maros; Andrea Kronfeld; Stefanie Kirschner; Christoph Groden; Clemens Sommer; Yasemin Tanyildizi; Martin Kramer; Marc A Brockmann
Journal: J Cereb Blood Flow Metab Date: 2019-11-21 Impact factor: 6.200

2. Apolipoprotein E Exerts a Whole-Brain Protective Property by Promoting M1? Microglia Quiescence After Experimental Subarachnoid Hemorrhage in Mice.

Authors: Jinwei Pang; Jianhua Peng; Nathanael Matei; Ping Yang; Li Kuai; Yue Wu; Ligang Chen; Michael P Vitek; Fengqiao Li; Xiaochuan Sun; John H Zhang; Yong Jiang
Journal: Transl Stroke Res Date: 2018-09-17 Impact factor: 6.829

3. Bexarotene Exerts Protective Effects Through Modulation of the Cerebral Vascular Smooth Muscle Cell Phenotypic Transformation by Regulating PPARγ/FLAP/LTB₄ After Subarachnoid Hemorrhage in Rats.

Authors: Zhaosi Zhang; Guosheng Zhao; Liu Liu; Junchi He; Rami Darwazeh; Han Liu; Hong Chen; Chao Zhou; Zongduo Guo; Xiaochuan Sun
Journal: Cell Transplant Date: 2019-04-22 Impact factor: 4.064

4. Targeting CCL20 inhibits subarachnoid hemorrhage-related neuroinflammation in mice.

Authors: Li-Shang Liao; Ming-Wei Zhang; Ying-Jiang Gu; Xiao-Chuan Sun
Journal: Aging (Albany NY) Date: 2020-06-21 Impact factor: 5.682

5. Influence of neurovascular anatomy on perforation site in different mouse strains using the filament perforation model for induction of subarachnoid hemorrhage.

Authors: Vanessa Weyer; Máté E Maros; Stefanie Kirschner; Samantha Krost-Reuhl; Christoph Groden; Martin Kramer; Marc A Brockmann; Andrea Kronfeld
Journal: PLoS One Date: 2022-10-13 Impact factor: 3.752

6. Transcriptome Analysis of Microglia Reveals That the TLR2/IRF7 Signaling Axis Mediates Neuroinflammation After Subarachnoid Hemorrhage.

Authors: Shenbin Xu; Shuhao Mei; Jianan Lu; Haijian Wu; Xiao Dong; Ligen Shi; Jingyi Zhou; Jianmin Zhang
Journal: Front Aging Neurosci Date: 2021-06-30 Impact factor: 5.750